using Unity.UIWidgets.foundation; using Unity.UIWidgets.gestures; using Unity.UIWidgets.painting; using Unity.UIWidgets.ui; using UnityEngine; using Rect = Unity.UIWidgets.ui.Rect; namespace Unity.UIWidgets.rendering { public abstract class RenderShiftedBox : RenderObjectWithChildMixinRenderBox { protected RenderShiftedBox(RenderBox child) { this.child = child; } protected override float computeMinIntrinsicWidth(float height) { if (this.child != null) { return this.child.getMinIntrinsicWidth(height); } return 0.0f; } protected override float computeMaxIntrinsicWidth(float height) { if (this.child != null) { return this.child.getMaxIntrinsicWidth(height); } return 0.0f; } protected override float computeMinIntrinsicHeight(float width) { if (this.child != null) { return this.child.getMinIntrinsicHeight(width); } return 0.0f; } protected override float computeMaxIntrinsicHeight(float width) { if (this.child != null) { return this.child.getMaxIntrinsicHeight(width); } return 0.0f; } protected override float? computeDistanceToActualBaseline(TextBaseline baseline) { float? result; if (this.child != null) { D.assert(!this.debugNeedsLayout); result = this.child.getDistanceToActualBaseline(baseline); if (result != null) { var childParentData = (BoxParentData) this.child.parentData; result += childParentData.offset.dy; } } else { result = base.computeDistanceToActualBaseline(baseline); } return result; } public override void paint(PaintingContext context, Offset offset) { if (this.child != null) { var childParentData = (BoxParentData) this.child.parentData; context.paintChild(this.child, childParentData.offset + offset); } } protected override bool hitTestChildren(HitTestResult result, Offset position = null) { if (this.child != null) { var childParentData = (BoxParentData) this.child.parentData; return this.child.hitTest(result, position - childParentData.offset); } return false; } } public class RenderPadding : RenderShiftedBox { public RenderPadding( EdgeInsets padding = null, RenderBox child = null ) : base(child) { D.assert(padding != null); D.assert(padding.isNonNegative); this._padding = padding; } public EdgeInsets padding { get { return this._padding; } set { D.assert(value != null); D.assert(value.isNonNegative); if (this._padding == value) { return; } this._padding = value; this.markNeedsLayout(); } } EdgeInsets _padding; protected override float computeMinIntrinsicWidth(float height) { if (this.child != null) { return this.child.getMinIntrinsicWidth(Mathf.Max(0.0f, height - this._padding.vertical)) + this._padding.horizontal; } return this._padding.horizontal; } protected override float computeMaxIntrinsicWidth(float height) { if (this.child != null) { return this.child.getMaxIntrinsicWidth(Mathf.Max(0.0f, height - this._padding.vertical)) + this._padding.horizontal; } return this._padding.horizontal; } protected override float computeMinIntrinsicHeight(float width) { if (this.child != null) { return this.child.getMinIntrinsicHeight(Mathf.Max(0.0f, width - this._padding.horizontal)) + this._padding.vertical; } return this._padding.vertical; } protected override float computeMaxIntrinsicHeight(float width) { if (this.child != null) { return this.child.getMaxIntrinsicHeight(Mathf.Max(0.0f, width - this._padding.horizontal)) + this._padding.vertical; } return this._padding.vertical; } protected override void performLayout() { if (this.child == null) { this.size = this.constraints.constrain(this._padding.inflateSize(Size.zero)); return; } var innerConstraints = this.constraints.deflate(this._padding); this.child.layout(innerConstraints, parentUsesSize: true); var childParentData = (BoxParentData) this.child.parentData; childParentData.offset = this._padding.topLeft; this.size = this.constraints.constrain(this._padding.inflateSize(this.child.size)); } protected override void debugPaintSize(PaintingContext context, Offset offset) { base.debugPaintSize(context, offset); D.assert(() => { Rect outerRect = offset & this.size; D.debugPaintPadding(context.canvas, outerRect, this.child != null ? this._padding.deflateRect(outerRect) : null); return true; }); } public override void debugFillProperties(DiagnosticPropertiesBuilder properties) { base.debugFillProperties(properties); properties.add(new DiagnosticsProperty("padding", this.padding)); } } public abstract class RenderAligningShiftedBox : RenderShiftedBox { protected RenderAligningShiftedBox( Alignment alignment = null, RenderBox child = null ) : base(child) { this._alignment = alignment ?? Alignment.center; } public Alignment alignment { get { return this._alignment; } set { D.assert(value != null); if (this._alignment == value) { return; } this._alignment = value; this.markNeedsLayout(); } } Alignment _alignment; protected void alignChild() { D.assert(this.child != null); D.assert(!this.child.debugNeedsLayout); D.assert(this.child.hasSize); D.assert(this.hasSize); var childParentData = (BoxParentData) this.child.parentData; childParentData.offset = this._alignment.alongOffset(this.size - this.child.size); } public override void debugFillProperties(DiagnosticPropertiesBuilder properties) { base.debugFillProperties(properties); properties.add(new DiagnosticsProperty("alignment", this.alignment)); } } public class RenderPositionedBox : RenderAligningShiftedBox { public RenderPositionedBox( RenderBox child = null, float? widthFactor = null, float? heightFactor = null, Alignment alignment = null ) : base(alignment, child) { D.assert(widthFactor == null || widthFactor >= 0.0); D.assert(heightFactor == null || heightFactor >= 0.0); this._widthFactor = widthFactor; this._heightFactor = heightFactor; } public float? widthFactor { get { return this._widthFactor; } set { D.assert(value == null || value >= 0.0); if (this._widthFactor == value) { return; } this._widthFactor = value; this.markNeedsLayout(); } } float? _widthFactor; public float? heightFactor { get { return this._heightFactor; } set { D.assert(value == null || value >= 0.0); if (this._heightFactor == value) { return; } this._heightFactor = value; this.markNeedsLayout(); } } float? _heightFactor; protected override void performLayout() { bool shrinkWrapWidth = this._widthFactor != null || float.IsPositiveInfinity(this.constraints.maxWidth); bool shrinkWrapHeight = this._heightFactor != null || float.IsPositiveInfinity(this.constraints.maxHeight); if (this.child != null) { this.child.layout(this.constraints.loosen(), parentUsesSize: true); this.size = this.constraints.constrain(new Size( shrinkWrapWidth ? this.child.size.width * (this._widthFactor ?? 1.0f) : float.PositiveInfinity, shrinkWrapHeight ? this.child.size.height * (this._heightFactor ?? 1.0f) : float.PositiveInfinity)); this.alignChild(); } else { this.size = this.constraints.constrain(new Size( shrinkWrapWidth ? 0.0f : float.PositiveInfinity, shrinkWrapHeight ? 0.0f : float.PositiveInfinity)); } } protected override void debugPaintSize(PaintingContext context, Offset offset) { base.debugPaintSize(context, offset); D.assert(() => { Paint paint; if (this.child != null && !this.child.size.isEmpty) { // Path path; // paint = Paint() // ..style = PaintingStyle.stroke // ..strokeWidth = 1.0 // ..color = const Color(0xFFFFFF00); // path = Path(); // final BoxParentData childParentData = child.parentData; // if (childParentData.offset.dy > 0.0) { // // vertical alignment arrows // final float headSize = math.min(childParentData.offset.dy * 0.2, 10.0); // path // ..moveTo(offset.dx + size.width / 2.0, offset.dy) // ..relativeLineTo(0.0, childParentData.offset.dy - headSize) // ..relativeLineTo(headSize, 0.0) // ..relativeLineTo(-headSize, headSize) // ..relativeLineTo(-headSize, -headSize) // ..relativeLineTo(headSize, 0.0) // ..moveTo(offset.dx + size.width / 2.0, offset.dy + size.height) // ..relativeLineTo(0.0, -childParentData.offset.dy + headSize) // ..relativeLineTo(headSize, 0.0) // ..relativeLineTo(-headSize, -headSize) // ..relativeLineTo(-headSize, headSize) // ..relativeLineTo(headSize, 0.0); // context.canvas.drawPath(path, paint); // } // if (childParentData.offset.dx > 0.0) { // // horizontal alignment arrows // final float headSize = math.min(childParentData.offset.dx * 0.2, 10.0); // path // ..moveTo(offset.dx, offset.dy + size.height / 2.0) // ..relativeLineTo(childParentData.offset.dx - headSize, 0.0) // ..relativeLineTo(0.0, headSize) // ..relativeLineTo(headSize, -headSize) // ..relativeLineTo(-headSize, -headSize) // ..relativeLineTo(0.0, headSize) // ..moveTo(offset.dx + size.width, offset.dy + size.height / 2.0) // ..relativeLineTo(-childParentData.offset.dx + headSize, 0.0) // ..relativeLineTo(0.0, headSize) // ..relativeLineTo(-headSize, -headSize) // ..relativeLineTo(headSize, -headSize) // ..relativeLineTo(0.0, headSize); // context.canvas.drawPath(path, paint); // } } else { // paint = Paint() // ..color = const Color(0x90909090); // context.canvas.drawRect(offset & size, paint); } return true; }); } public override void debugFillProperties(DiagnosticPropertiesBuilder properties) { base.debugFillProperties(properties); properties.add(new FloatProperty("widthFactor", this._widthFactor, ifNull: "expand")); properties.add(new FloatProperty("heightFactor", this._heightFactor, ifNull: "expand")); } } public class RenderConstrainedOverflowBox : RenderAligningShiftedBox { public RenderConstrainedOverflowBox( RenderBox child = null, float? minWidth = null, float? maxWidth = null, float? minHeight = null, float? maxHeight = null, Alignment alignment = null ) : base(alignment, child) { this._minWidth = minWidth; this._maxWidth = maxWidth; this._minHeight = minHeight; this._maxHeight = maxHeight; } public float? minWidth { get { return this._minWidth; } set { if (this._minWidth == value) { return; } this._minWidth = value; this.markNeedsLayout(); } } public float? _minWidth; public float? maxWidth { get { return this._maxWidth; } set { if (this._maxWidth == value) { return; } this._maxWidth = value; this.markNeedsLayout(); } } public float? _maxWidth; public float? minHeight { get { return this._minHeight; } set { if (this._minHeight == value) { return; } this._minHeight = value; this.markNeedsLayout(); } } public float? _minHeight; public float? maxHeight { get { return this._maxHeight; } set { if (this._maxHeight == value) { return; } this._maxHeight = value; this.markNeedsLayout(); } } public float? _maxHeight; public BoxConstraints _getInnerConstraints(BoxConstraints constraints) { return new BoxConstraints( minWidth: this._minWidth ?? constraints.minWidth, maxWidth: this._maxWidth ?? constraints.maxWidth, minHeight: this._minHeight ?? constraints.minHeight, maxHeight: this._maxHeight ?? constraints.maxHeight ); } protected override bool sizedByParent { get { return true; } } protected override void performResize() { this.size = this.constraints.biggest; } protected override void performLayout() { if (this.child != null) { this.child.layout(this._getInnerConstraints(this.constraints), parentUsesSize: true); this.alignChild(); } } } public class RenderUnconstrainedBox : RenderAligningShiftedBox { public RenderUnconstrainedBox( Alignment alignment = null, Axis? constrainedAxis = null, RenderBox child = null ) : base(alignment, child) { this._constrainedAxis = constrainedAxis; } public Axis? constrainedAxis { get { return this._constrainedAxis; } set { if (this._constrainedAxis == value) { return; } this._constrainedAxis = value; this.markNeedsLayout(); } } public Axis? _constrainedAxis; public Rect _overflowContainerRect = Rect.zero; public Rect _overflowChildRect = Rect.zero; public bool _isOverflowing = false; protected override void performLayout() { if (this.child != null) { BoxConstraints childConstraints = null; if (this.constrainedAxis != null) { switch (this.constrainedAxis) { case Axis.horizontal: childConstraints = new BoxConstraints( maxWidth: this.constraints.maxWidth, minWidth: this.constraints.minWidth); break; case Axis.vertical: childConstraints = new BoxConstraints( maxHeight: this.constraints.maxHeight, minHeight: this.constraints.minHeight); break; } } else { childConstraints = new BoxConstraints(); } this.child.layout(childConstraints, parentUsesSize: true); this.size = this.constraints.constrain(this.child.size); this.alignChild(); var childParentData = (BoxParentData) this.child.parentData; this._overflowContainerRect = Offset.zero & this.size; this._overflowChildRect = childParentData.offset & this.child.size; } else { this.size = this.constraints.smallest; this._overflowContainerRect = Rect.zero; this._overflowChildRect = Rect.zero; } this._isOverflowing = RelativeRect.fromRect( this._overflowContainerRect, this._overflowChildRect).hasInsets; } public override void paint(PaintingContext context, Offset offset) { if (this.child == null || this.size.isEmpty) { return; } if (!this._isOverflowing) { base.paint(context, offset); return; } context.pushClipRect(this.needsCompositing, offset, Offset.zero & this.size, base.paint); } } public class RenderSizedOverflowBox : RenderAligningShiftedBox { public RenderSizedOverflowBox( RenderBox child = null, Size requestedSize = null, Alignment alignment = null ) : base(alignment, child) { this._requestedSize = requestedSize; } public Size requestedSize { get { return this._requestedSize; } set { if (this._requestedSize == value) { return; } this._requestedSize = value; this.markNeedsLayout(); } } public Size _requestedSize; protected override float computeMinIntrinsicWidth(float height) { return this._requestedSize.width; } protected override float computeMaxIntrinsicWidth(float height) { return this._requestedSize.width; } protected override float computeMinIntrinsicHeight(float width) { return this._requestedSize.height; } protected override float computeMaxIntrinsicHeight(float width) { return this._requestedSize.height; } protected override float? computeDistanceToActualBaseline(TextBaseline baseline) { if (this.child != null) { return this.child.getDistanceToActualBaseline(baseline); } return base.computeDistanceToActualBaseline(baseline); } protected override void performLayout() { this.size = this.constraints.constrain(this._requestedSize); if (this.child != null) { this.child.layout(this.constraints); this.alignChild(); } } } public class RenderFractionallySizedOverflowBox : RenderAligningShiftedBox { public RenderFractionallySizedOverflowBox( RenderBox child = null, float? widthFactor = null, float? heightFactor = null, Alignment alignment = null ) : base(alignment, child) { this._widthFactor = widthFactor; this._heightFactor = heightFactor; } public float? widthFactor { get { return this._widthFactor; } set { if (this._widthFactor != value) { return; } this._widthFactor = value; this.markNeedsLayout(); } } public float? _widthFactor; public float? heightFactor { get { return this._heightFactor; } set { if (this._heightFactor != value) { return; } this._heightFactor = value; this.markNeedsLayout(); } } public float? _heightFactor; public BoxConstraints _getInnerConstraints(BoxConstraints constraints) { float minWidth = constraints.minWidth; float maxWidth = constraints.maxWidth; if (this._widthFactor != null) { float width = maxWidth * this._widthFactor.Value; minWidth = width; maxWidth = width; } float minHeight = constraints.minHeight; float maxHeight = constraints.maxHeight; if (this._heightFactor != null) { float height = maxHeight * this._heightFactor.Value; minHeight = height; maxHeight = height; } return new BoxConstraints( minWidth: minWidth, maxWidth: maxWidth, minHeight: minHeight, maxHeight: maxHeight ); } protected override float computeMinIntrinsicWidth(float height) { float result; if (this.child == null) { result = base.computeMinIntrinsicWidth(height); } else { result = this.child.getMinIntrinsicWidth(height * (this._heightFactor ?? 1.0f)); } return result / (this._widthFactor ?? 1.0f); } protected override float computeMaxIntrinsicWidth(float height) { float result; if (this.child == null) { result = base.computeMaxIntrinsicWidth(height); } else { result = this.child.getMaxIntrinsicWidth(height * (this._heightFactor ?? 1.0f)); } return result / (this._widthFactor ?? 1.0f); } protected override float computeMinIntrinsicHeight(float width) { float result; if (this.child == null) { result = base.computeMinIntrinsicHeight(width); } else { result = this.child.getMinIntrinsicHeight(width * (this._widthFactor ?? 1.0f)); } return result / (this._heightFactor ?? 1.0f); } protected override float computeMaxIntrinsicHeight(float width) { float result; if (this.child == null) { result = base.computeMaxIntrinsicHeight(width); } else { result = this.child.getMaxIntrinsicHeight(width * (this._widthFactor ?? 1.0f)); } return result / (this._heightFactor ?? 1.0f); } protected override void performLayout() { if (this.child != null) { this.child.layout(this._getInnerConstraints(this.constraints), parentUsesSize: true); this.size = this.constraints.constrain(this.child.size); this.alignChild(); } else { this.size = this.constraints.constrain( this._getInnerConstraints(this.constraints).constrain(Size.zero)); } } } public abstract class SingleChildLayoutDelegate { public SingleChildLayoutDelegate(Listenable _relayout = null) { this._relayout = _relayout; } public readonly Listenable _relayout; public virtual Size getSize(BoxConstraints constraints) { return constraints.biggest; } public virtual BoxConstraints getConstraintsForChild(BoxConstraints constraints) { return constraints; } public virtual Offset getPositionForChild(Size size, Size childSize) { return Offset.zero; } public abstract bool shouldRelayout(SingleChildLayoutDelegate oldDelegate); } public class RenderCustomSingleChildLayoutBox : RenderShiftedBox { public RenderCustomSingleChildLayoutBox(RenderBox child = null, SingleChildLayoutDelegate layoutDelegate = null) : base(child) { D.assert(layoutDelegate != null); this._delegate = layoutDelegate; } public SingleChildLayoutDelegate layoutDelegate { get { return this._delegate; } set { var newDelegate = value; D.assert(newDelegate != null); if (this._delegate == newDelegate) { return; } SingleChildLayoutDelegate oldDelegate = this._delegate; if (newDelegate.GetType() != oldDelegate.GetType() || newDelegate.shouldRelayout(oldDelegate)) { this.markNeedsLayout(); } this._delegate = newDelegate; if (this.attached) { oldDelegate?._relayout?.removeListener(this.markNeedsLayout); newDelegate?._relayout?.addListener(this.markNeedsLayout); } } } SingleChildLayoutDelegate _delegate; public override void attach(object owner) { base.attach(owner); this._delegate?._relayout?.addListener(this.markNeedsLayout); } public override void detach() { this._delegate?._relayout?.removeListener(this.markNeedsLayout); base.detach(); } Size _getSize(BoxConstraints constraints) { return constraints.constrain(this._delegate.getSize(constraints)); } protected override float computeMinIntrinsicWidth(float height) { float width = this._getSize(BoxConstraints.tightForFinite(height: height)).width; if (width.isFinite()) { return width; } return 0.0f; } protected override float computeMaxIntrinsicWidth(float height) { float width = this._getSize(BoxConstraints.tightForFinite(height: height)).width; if (width.isFinite()) { return width; } return 0.0f; } protected override float computeMinIntrinsicHeight(float width) { float height = this._getSize(BoxConstraints.tightForFinite(width: width)).height; if (height.isFinite()) { return height; } return 0.0f; } protected override float computeMaxIntrinsicHeight(float width) { float height = this._getSize(BoxConstraints.tightForFinite(width: width)).height; if (height.isFinite()) { return height; } return 0.0f; } protected override void performLayout() { this.size = this._getSize(this.constraints); if (this.child != null) { BoxConstraints childConstraints = this.layoutDelegate.getConstraintsForChild(this.constraints); D.assert(childConstraints.debugAssertIsValid(isAppliedConstraint: true)); this.child.layout(childConstraints, parentUsesSize: !childConstraints.isTight); BoxParentData childParentData = (BoxParentData) this.child.parentData; childParentData.offset = this.layoutDelegate.getPositionForChild(this.size, childConstraints.isTight ? childConstraints.smallest : this.child.size); } } } public class RenderBaseline : RenderShiftedBox { public RenderBaseline( RenderBox child = null, float baseline = 0.0f, TextBaseline baselineType = TextBaseline.alphabetic ) : base(child) { this._baseline = baseline; this._baselineType = baselineType; } public float baseline { get { return this._baseline; } set { if (this._baseline != value) { return; } this._baseline = value; this.markNeedsLayout(); } } public float _baseline; public TextBaseline baselineType { get { return this._baselineType; } set { if (this._baselineType != value) { return; } this._baselineType = value; this.markNeedsLayout(); } } public TextBaseline _baselineType; protected override void performLayout() { if (this.child != null) { this.child.layout(this.constraints.loosen(), parentUsesSize: true); float? childBaseline = this.child.getDistanceToBaseline(this.baselineType); float actualBaseline = this.baseline; float top = actualBaseline - childBaseline.Value; var childParentData = (BoxParentData) this.child.parentData; childParentData.offset = new Offset(0.0f, top); Size childSize = this.child.size; this.size = this.constraints.constrain(new Size(childSize.width, top + childSize.height)); } else { this.performResize(); } } } }